面向一体化综合减灾的知识图谱构建方法

Knowledge Graph Construction for Integrated Disaster Reduction

  • 摘要: 知识图谱是揭示实体及其相互之间关系的重要工具,其在应急减灾中发挥着越来越重要的作用。研究了面向一体化综合减灾的知识图谱构建方法。首先,介绍了知识图谱的相关概念,分析了知识图谱在应急减灾工作中的应用;然后,总结了面向一体化综合减灾的知识图谱构建流程和关键技术,关键技术主要包括知识抽取、信息融合、知识建模和知识存储;随后,以九寨沟地震为例展示了面向九寨沟地震减灾的知识图谱构建过程、构建结果,并介绍了知识图谱在应用减灾信息主动推送方面的应用;最后,总结了知识图谱应用于一体化综合减灾领域所面临的挑战。

     

    Abstract:
      Objectives   The knowledge graph is an important tool for revealing entities and the relationships between them. The role of knowledge graph in integrated disaster reduction is becoming increasingly prominent. We summarized the knowledge graph construction method and application for integrated disaster reduction.
      Methods   Firstly, the concepts of knowledge graph and the application of knowledge graph in disaster reduction is introduced. The knowledge graph can realize the rapid aggregation of multi-source heterogeneous data in the integrated and comprehensive disaster reduction, and organize the data of the relevant departments in an orderly manner. The knowledge graph can establish relationships between social fields related to emergency rescue, and reveal cross-network relationships between different fields, different social entities, and entities and data resources and disaster events. Knowledge graphs can more efficiently extract and utilize time-sensitive and information-intensive Internet and social media data.Secondly, the knowledge graph construction process and key technologies for integrated disaster reduction are summarized. Specifically, the knowledge graph construction process includes process multi-source heterogeneous data, extracting entities and relationships from the data according to the application scenario,fusing various types of know- ledge, and finally modeling knowledge graph and store it in the knowledge base. The key technologies mainly include knowledge extraction,information fusion,knowledge graph building,and knowledge storage.
      Results   The knowledge graph has established the connection between the user and the required information, and personalized information can be pushed to three types of users based on the knowledge graph. The main users of the system include three categories, namely emergency management users, public users and emergency rescue users.
      Conclusions   The knowledge graph has the advantage of gathering multi-source heterogeneous data, displaying rich disaster related information, pushing personalized information. The degree of automation of knowledge graph construction in the field of emergency disaster reduction is insufficient. Massive structured and unstructured data brings challenges to the storage and rapid construction of knowledge graphs. In the field of disaster reduction and emergency response, how to effectively and uniformly manage various types of earthquake information in practical applications, improve the prediction accuracy of disaster development trends, and discover the temporal and spatial patterns, evolution laws, activity patterns and internal mechanisms of disasters still need to be further expanded and deepened.

     

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